Innovative Applications of Our Ventilated Human Model
Personal Protective Equipment (PPE) Efficacy: Our model is instrumental in investigating bioaerosol spread from an infected individual to others in diverse environments like hospitals, public transport, or indoor spaces. This analysis aids in enhancing infection control strategies and designing more efficient PPE.
Ergonomic PPE Design: By studying the interaction between PPE, breathing dynamics, and aerosol movement, we assist in developing more effective and comfortable protective gear.
Evaluation of Novel Mitigation Devices: The model is adept at assessing other unique mitigation devices, such as air curtains, that aim to prevent the spread of airborne pathogens.
Medical Device Analysis: Our human ventilated model is key in detecting bioaerosols generated by medical devices, like CPAP machines, and during procedures that produce aerosols, such as dental drilling.
Exhaled Bioaerosol Analysis for Enhanced Safety
Aerosol Generation and Dispersion Studies: We delve into how actions like coughing, sneezing, or speaking contribute to bioaerosol generation and spread, thereby determining the effectiveness of new mitigation systems.
Infection Control Research: Our model plays a crucial role in understanding bioaerosol transmission from infected individuals and evaluating devices designed to reduce airborne infection risks.
Occupational Health Safeguards: We focus on evaluating devices that protect healthcare workers from airborne infectious pathogens.
ARE Labs: Pioneering in Breathing Simulation Bioaerosol Analysis
Choose ARE Labs for comprehensive breathing simulation bioaerosol services. Our state-of-the-art human ventilated model, combined with our deep expertise in aerosol science, makes us the ideal partner for advancing safety and effectiveness in bioaerosol management. Contact us today to learn more about our services or to discuss how we can assist with your specific bioaerosol testing needs.